Add to ORKGThe theoretical work of Braginsky predicted that radiation pressure can couple the mechanical, mirror eigenmodes of a Fabry-Pérot resonator to its optical modes, leading to a parametric oscillation instability. This regime is characterized by regenerative mechanical oscillation of the mechanical mirror eigenmodes. We have recently observed the excitation of mechanical modes in an ultrahigh Q optical microcavity. Here, we present a detailed experimental analysis of this effect and demonstrate that radiation pressure is the excitation mechanism of the observed mechanical oscillations
At the beginning of last century Einstein derived the statistics of the radiation pressure force flu...
Cooling of a 58 MHz micromechanical resonator from room temperature to 11 K is demonstrated using ca...
We report on experimental observation of radiation-pressure induced effects in a high-power optical ...
Radiation pressure can couple the mechanical modes of an optical cavity structure to its optical mod...
Microcavities can enter a regime where radiation pressure causes oscillation of mechanical cavity ei...
We analyze experimentally and theoretically mechanical oscillation within an optical cavity stimulat...
Recent experiments that use radiation pressure in microcavities either to create micro-wave-rate mec...
We analyze experimentally and theoretically mechanical oscillation at RF frequency within an optical...
We analyze experimentally and theoretically mechanical oscillation at RF frequency within an optical...
Recent experimental progress in table-top experiments or gravitational-wave interferometers has enli...
The resonant buildup of light within optical microcavities elevates the radiation pressure which med...
We review recent progress in the field of optomechanics, where one studies the effects of radiation ...
At the beginning of last century Einstein derived the statistics of the radiation pressure force flu...
Cooling of a 58 MHz micromechanical resonator from room temperature to 11 K is demonstrated using ca...
At the beginning of last century Einstein derived the statistics of the radiation pressure force flu...
At the beginning of last century Einstein derived the statistics of the radiation pressure force flu...
Cooling of a 58 MHz micromechanical resonator from room temperature to 11 K is demonstrated using ca...
We report on experimental observation of radiation-pressure induced effects in a high-power optical ...
Radiation pressure can couple the mechanical modes of an optical cavity structure to its optical mod...
Microcavities can enter a regime where radiation pressure causes oscillation of mechanical cavity ei...
We analyze experimentally and theoretically mechanical oscillation within an optical cavity stimulat...
Recent experiments that use radiation pressure in microcavities either to create micro-wave-rate mec...
We analyze experimentally and theoretically mechanical oscillation at RF frequency within an optical...
We analyze experimentally and theoretically mechanical oscillation at RF frequency within an optical...
Recent experimental progress in table-top experiments or gravitational-wave interferometers has enli...
The resonant buildup of light within optical microcavities elevates the radiation pressure which med...
We review recent progress in the field of optomechanics, where one studies the effects of radiation ...
At the beginning of last century Einstein derived the statistics of the radiation pressure force flu...
Cooling of a 58 MHz micromechanical resonator from room temperature to 11 K is demonstrated using ca...
At the beginning of last century Einstein derived the statistics of the radiation pressure force flu...
At the beginning of last century Einstein derived the statistics of the radiation pressure force flu...
Cooling of a 58 MHz micromechanical resonator from room temperature to 11 K is demonstrated using ca...
We report on experimental observation of radiation-pressure induced effects in a high-power optical ...